Broadcast Management Unit and Method For Providing Digital Content to a User Equipment, User Equipment and Method For Receiving Digital Content

ABSTRACT

A method in, and a Broadcast Management unit ( 130 ) for providing digital content to a user equipment ( 120 ), and a method in, and a user equipment ( 120 ) for receiving digital content. The user equipment ( 120 ) is served by a base station ( 110 ) in a cell ( 115 ) of a cellular communications network ( 100 ). The Broadcast Management unit decides ( 301 ) to provide a digital content by broadcast or multicast in a service area ( 105 ) comprising the cell ( 115 ), instead of only letting the digital content be available in the service area ( 105 ) by unicast. The Broadcast Management unit provides ( 302 - 304 ), in response to the decision, broadcast or multicast of the digital content in the service area ( 105 ), thereby enabling reception of the digital content by the user equipment ( 120 ) via the base station ( 110 ) and by one or more additional user equipments ( 121, 122, 123 ) being served in the service area ( 105 ). As a result, improvement of performance is enabled in the cellular communications network.

TECHNICAL FIELD

Embodiments herein relate a method in a Broadcast Management unit, a Broadcast Management unit, a method in a user equipment and a user equipment. In particular embodiments herein relate to providing digital content to a user equipment in a cellular communications network.

BACKGROUND

Communication devices such as User Equipments (UEs) are also known as e.g. mobile terminals, wireless terminals and/or mobile stations. A user equipment is enabled to communicate wirelessly in a cellular communications network, wireless communications system, or radio communications system, sometimes also referred to as a cellular radio system or cellular network. The communication may be performed e.g. between two user equipments, between a user equipment and a regular telephone and/or between a user equipment and a server via a Radio Access Network (RAN) and possibly one or more core networks, comprised within the cellular communications network.

The user equipment may further be referred to as a mobile telephone, cellular telephone, laptop, Personal Digital Assistant (PDA), tablet computer, surf plate, just to mention some further examples. The user equipment in the present context may be, for example, portable, pocket-storable, hand-held, computer-comprised, or vehicle-mounted mobile device, enabled to communicate voice and/or data, via the RAN, with another entity, such as another user equipment or a server.

The cellular communications network covers a geographical area which is divided into cell areas, wherein each cell area being served by a base station, e.g. a Radio Base Station (RBS), which sometimes may be referred to as e.g. “eNB”, “eNodeB”, “NodeB”, “B node”, or BTS (Base Transceiver Station), depending on the technology and terminology used. The base stations may be of different classes such as e.g. macro eNodeB, home eNodeB or pico base station, based on transmission power and thereby also cell size. A cell is the geographical area where radio coverage is provided by the base station at a base station site. By the base station serving a cell is meant that the radio coverage is provided such that one or more user equipments located in the geographical area where the radio coverage is provided may be served by the base station. One base station may serve one or several cells. Further, each base station may support one or several communication technologies. The base stations communicate over the air interface operating on radio frequencies with the user equipment within range of the base stations.

In some RANs, several base stations may be connected, e.g. by landlines or microwave, to a radio network controller, e.g. a Radio Network Controller (RNC) in Universal Mobile Telecommunications System (UMTS), and/or to each other. The radio network controller, also sometimes termed a Base Station Controller (BSC) e.g. in GSM, may supervise and coordinate various activities of the plural base stations connected thereto. GSM is an abbreviation for Global System for Mobile Communications (originally: Groupe Spécial Mobile).

In 3rd Generation Partnership Project (3GPP) Long Term Evolution (LTE), base stations, which may be referred to as eNodeBs or eNBs, may be directly connected to one or more core networks.

UMTS is a third generation mobile communication system, which evolved from the GSM, and is intended to provide improved mobile communication services based on Wideband Code Division Multiple Access (WCDMA) access technology. UMTS Terrestrial Radio Access Network (UTRAN) is essentially a radio access network using wideband code division multiple access for user equipments. The 3GPP has undertaken to evolve further the UTRAN and GSM based radio access network technologies, for example into evolved UTRAN (E-UTRAN) used in LTE.

In the context of this disclosure, the expression downlink (DL) is used for the transmission path from the base station to the user equipment. The expression uplink (UL) is used for the transmission path in the opposite direction i.e. from the user equipment to the base station.

In a cellular communications network various services are provided, via base stations to user equipments being served in the cells thereof, such as voice communication services and data services available on or via the Internet, or other local data networks. The data services may be services available on the World Wide Web (WWW), typically accessible to a user equipment via a web browser application installed thereon, or data services that are available via other protocols and/or relevant only to more specific applications or software installed on the user equipment. Using such data services involves download of digital content to the user equipment. Certain parts of the cellular communications network are responsible for identifying user equipments that request such data services and then makes sure that the service is provided to the user equipment via the base station serving the user equipment, preferably in such way that the user of the user equipment does experience any negative impact from the fact that the service is provided via the cellular communications network. For example, a user that uses an application executing on a user equipment, e.g. a web browser, for accessing digital content on the Internet, simply wants the access without having to care of, or be negatively affected, by the fact that the connection is via the cellular communications network.

However, there are certain problems associated with the desire to provide such user experience. One problem is the fact the there is a limited bandwidth in each cell and thereby restrictions in how many user equipments that may be guaranteed a certain quality of service at the same time. By a continuously increasing number of user equipments and increasing usage of data services in cellular communications networks of today, the problem is becoming increasingly greater. Even if the overall capacity is increased there will still be a certain maximal amount of bandwidth available in each cell for the delivery of digital content for the data services, and there may be usage peaks where it would be desirable to provide digital content to user equipments in a cell at such amount and rate that would exceed the capacity of the cell. When this happens the result is a poor user experience, e.g. bad performance of the data service, errors in the digital content and/or data service, or even non-access to the requested digital content or non-availability of the data service.

SUMMARY

An object of embodiments herein is to provide a way of improving the performance in a cellular communications network. More specifically the object is to enable improved user experience for users of user equipments in a cellular communications network when the user equipments are utilizing data services provided in the cellular communications network for accessing digital content.

According to a first aspect of embodiments herein, the object is achieved by a method in a Broadcast Management unit for providing digital content to a user equipment. The user equipment is served by a base station in a cell of a cellular communications network. The base station is comprised in a radio access network of the cellular communications network. The Broadcast Management unit is comprised in a core network of the cellular communications network. The Broadcast Management unit decides to provide a digital content by broadcast or multicast in a service area comprising the cell, instead of only letting the digital content be available in the service area by unicast. The Broadcast Management unit then provides, in response to the decision, broadcast or multicast of the digital content in the service area, thereby enabling reception of the digital content by the user equipment via the base station and by one or more additional user equipments being served in the service area.

According to a second aspect of embodiments herein, the object is achieved by a method in a user equipment for receiving a digital content. The user equipment is served by a base station in a cell of a cellular communications network. The base station is comprised in a radio access network of the cellular communications network. The user equipment registers a request for retrieving the digital content. The user equipment identifies, in response to the registered request, that the digital content is available from broadcast or multicast provided in the cell via the base station. The user equipment then receives, in response to the identified availability, the digital content from the provided broadcast or multicast via the base station instead of receiving the digital content from unicast via the base station.

According to a third aspect of embodiments herein, the object is achieved by a Broadcast Management unit for providing digital content to a user equipment. The user equipment is served by a base station in a cell of a cellular communications network. The base station is comprised in a radio access network of the cellular communications network. The Broadcast Management unit is comprised in a core network of the cellular communications network. The Broadcast Management unit comprises a deciding circuitry, configured to decide to provide a digital content by broadcast or multicast in a service area comprising the cell, instead of only letting the digital content be available in the service area by unicast. The Broadcast Management unit further comprises a providing circuitry, configured to, in response to the decision, provide broadcast or multicast of the digital content in the service area, thereby enabling reception of the digital content by the user equipment via the base station and by one or more additional user equipments being served in the service area.

According to a fourth aspect of embodiments herein, the object is achieved by a user equipment for receiving digital content. The user equipment is configured to be served by a base station in a cell of a cellular communications network. The base station is comprised in a radio access network of the cellular communications network. The user equipment comprises a registering circuitry, configured to register a request for retrieving the digital content. The user equipment also comprises an identifying circuitry, configured to identify, in response to the registered request, that the digital content is available from broadcast or multicast provided in the cell via the base station. Moreover, the user equipment comprises a receiving port, configured to, in response to the identified availability, receive the digital content from the provided broadcast or multicast via the base station instead of receiving the digital content from unicast via the base station.

By digital content is here meant digital content that is provided by services available to the user equipment. The digital content is typically data from the internet, e.g. available on the World Wide Web (WWW), often referred to as web content, but may also be other kind of digital content. For example, digital content may relate to a web radio transmission for reception by an application running on the user equipment, a video clip for view on the user equipment, a web-page for execution and display using a web-browser executing on the user equipment, application specific digital content, a downloadable new firmware or application for execution on the user equipment, just to mention some examples. The digital content may correspond to a single data file or a group of data files. The digital content may be live and/or streamed digital content.

By providing the broadcast or multicast of the digital content instead of unicast, the result is sending and addressing of one and the same copy of the digital content for reception by the user equipment and the one or more additional user equipments, i.e. multiple user equipments, at the same time. This instead of sending and addressing a separate copy of the digital content to each one of the multiple user equipments. Hence multiple unicast downlink transmissions, one for each one of the user equipment and the one and more additional user equipments, where each unicast transmission requires a certain bandwidth, are possible to replace by the provided broadcast or multicast with a bandwidth that is independent on the number of receiving user equipments. It is realized that this may be used to reduce the risk of capacity overload in the service area, such as in the cell serving the user equipment. Thereby the risk of negative user experiences is reduced in the cellular communications network, and an improved user experience is enabled for users of the user equipment and the one and more additional user equipments, which users are utilizing data services in the cellular communications network for accessing digital content.

Further advantages for example include:

By user equipments receiving digital content by broadcast or multicast instead of by unicast, reduced signaling in the cell and the service area is enabled and less resources may need to be allocated. For example, in LTE less resource blocks may need to be allocated for specific user equipments.

Bandwidth may be freed and used for other purpose and/or it is enabled to improve the user experience by e.g. deliver the digital content at higher rates while allocating the same or even less bandwidth in the cell.

BRIEF DESCRIPTION OF THE DRAWINGS

Examples of embodiments herein are described in more detail with reference to the appended schematic drawings, in which:

FIG. 1 is a schematic block diagram depicting an example of a cellular communications network.

FIG. 2 is a schematic block diagram depicting another view of the example in FIG. 1.

FIG. 3 is a combined signaling diagram and flowchart illustrating embodiments herein.

FIG. 4 is another combined signaling diagram and flowchart illustrating embodiments herein.

FIG. 5 is a flow chart illustrating a method in a Broadcast Management unit according to embodiments herein.

FIG. 6 is a schematic block diagram illustrating a Broadcast Management unit according to embodiments herein.

FIG. 7 is a flow chart illustrating a method in a user equipment according to embodiments herein.

FIG. 8 is a schematic block diagram illustrating a user equipment according to embodiments herein.

DESCRIPTION

Multimedia Broadcast Multicast Services (MBMS) is a point-to-multipoint interface specification for existing and upcoming 3GPP cellular networks, which is designed to provide efficient delivery of broadcast and multicast services. See for example:

ETSI TS 123 246 V9.6.0 (2012-01): Universal Mobile Telecommunications System (UMTS); LTE; Multimedia Broadcast/Multicast Service (MBMS); Architecture and functional description (3GPP TS 23.246 version 9.6.0 Release 9),

ETSI TS 125 346 V9.1.0 (2010-04): Universal Mobile Telecommunications System (UMTS); Introduction of the Multimedia Broadcast/Multicast Service (MBMS) in the Radio Access Network (RAN); Stage 2 (3GPP TS 25.346 version 9.1.0 Release 9), and

ETSI TS 136 300 V9.9.0 (2012-01): LTE; Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2 (3GPP TS 36.300 version 9.9.0 Release 9), Section 15 MBMS.

MBMS for LTE may generally be referred to as evolved MBMS (eMBMS). The embodiments herein are compatible with and may preferably be implemented in a cellular communications network, in particular LTE-based, that support MBMS, i.e. eMBMS. This should be appreciated by the skilled person from the examples that will follow.

FIG. 1 is a schematic block diagram depicting an example of a cellular communications network 100. In the shown example the cellular communications network 100 corresponds to an LTE based network, as should be recognized by the skilled person. As indicated in the figure, the network 100 comprises an Evolved Packet Core (EPC) 101, being example of a core network, and an Evolved UMTS Terrestrial Radio Access Network (E-UTRAN) 102, being example of a RAN.

The shown cellular communications network 100 further comprises a base station 110 serving a cell 115 and a base station 111 serving a cell 116. The base stations 110, 111 are named eNB in the figure, which is the common denomination used for a base station in LTE-based networks.

Located and served in cell 115 is a user equipment 120 and a user equipment 121 and located and served in cell 116 is a user equipment 123 and a user equipment 124. Both the cell 115 and the cell 116 are located in a service area 105. The service area 105 may be defined by the cells that it comprises or may defined by a geographical area and thereby will comprise cells in the same geographical area. The service area 105 will be further discussed below.

The shown arrows in FIG. 1 indicate paths for communication of user plane data, such as communication of digital content that may result from that the user equipments 120, 121, 122, 123, 124 are utilizing data services provided in the cellular communications network 100 for accessing digital content.

Still referring to FIG. 1, the cellular communications network 100 further comprises a Packet Data Network (PDN) Gateway 142 and a Serving Gateway 143, as known from LTE. The PDN Gateway 142 is an example of an interface between an internal IP network of the operator of the cellular communication network 100 and an external network 50. The external network 50 may e.g. be the Internet. In LTE, the Serving Gateway 143 has a main task of tunneling user plane data between the PDN Gateway 142 and the base stations 110, 111. The PDN Gateway 142 and the Serving Gateway 143 are logical units in LTE, which logical units may be implemented in the same physical unit, but more typically in separate physical units and as separate network nodes in the cellular communications network 100, in particular in the EPC 101 thereof.

The shown cellular communications network 100 also comprises a MBMS GateWay (MBMS GW) 132 and a Broadcast Multicast Service Center (BMSC) 131. The general role, task and interrelations of the MBMS GW 132 and a BMSC 131 may be in accordance with the above mentioned 3GPP specifications relating to MBMS for LTE, i.e eMBMS. Hence, the MBMS GW 132 may i.a. provide functionality for sending of MBMS packets comprising the digital content to the base stations 110, 111 for broadcast or multicast in the cells 115, 116. The MBMS GW 132 may use IP multicast as a means for forwarding MBMS user plane data, such as the digital content in the MBMS packets, to the base stations 110, 111. Note that this may be the case even though the digital content is being provided by broadcast in the respective cells. The BMSC 131 may i.a. be responsible for delivering user plane data, such as the digital content, to the MBMS GW 132. The BMSC 131 may also provide a number of service layer function such as Forward Error Correction (FEC) and file Repair in order to ensure Quality of Service (QoS) in delivery of the digital content to the user equipments 120, 121, 122, 123. Also, Service Announcements of what is available by broadcast or multicast to the user equipments, such as user equipment 120, may be provided as a service layer function by the BMSC 131.

The shown cellular communications network 100 also comprises a Broadcast Management unit 130 for providing the digital content to the user equipments 120, 121, 122, 123, by e.g. controlling the BMSC 131, directly, via and/or with support from one or more support units 133 that will be further discussed below. The Broadcast Management unit 130 may e.g. be involved in and/or responsible for deciding what digital content to provide and when and where it shall be provided for the broadcast or multicast. Or in other words, the Broadcast Management unit 130 may be involved in and/or responsible for providing, planning and scheduling the provision the digital content for the broadcast or multicast. The Broadcast Management unit 130 may also be involved in and/or responsible for monitoring tasks, archiving tasks, and/or provide support to various organizations, typically within or connected to the operators of the cellular communications network 100, such as to network operations, service operations, customer care and also co-operating organizations, e.g. service providers of digital content. The Broadcast Management unit 130 will be further discussed below. The MBMS GW 132 and the BMSC 131 are logical units, which may be implemented in a respective corresponding physical unit or units, or together with other logical units or functionality in one or more shared physical units. Furthermore, the MBMS GW 132 and the BMSC 131 typically represent separate network nodes in the cellular communications network 100, more particularly in the EPC 101 thereof. The Broadcast Management unit 130 is a logical unit that may be implemented in a corresponding physical unit or units, or together with other logical units or functionality in one or more shared physical units. The Broadcast Management unit 130 may, but not necessary, correspond to a network node in the cellular communications network 100, such as in the EPC 130 in case of an LTE based cellular communications network 100.

As illustrated in FIG. 1, the cellular communications network 100 may further comprise one or more support units 133 that may be communicatively connected to the BMSC 131, the Broadcast Management unit 130 and/or to each other. The one or more support units 133 may e.g. comprise a content providing unit and/or a data carousel providing unit and/or a scheduling unit. The content providing unit may e.g. provide digital content from one or more sources to the BMSC 131 and/or to the data carousel providing unit. Digital content and examples thereof is discussed in some detail below. One source may be the external network 50, e.g. the Internet, from which the digital content may be retrieved via the PDN Gateway 142 or via some other connection. Another source may be digital content provided by e.g. the operator of the cellular communication network 100 exclusively for the broadcast or multicast, and which digital content thus may not be available from or via the external network 50. Yet another source may be one or more encoders or re-encoders for content that is relevant to transform before being subject to broadcast or multicast, e.g. analogue content and/or content in an inappropriate digital format. For example, digital content produced for another kind of system, e.g. television, such as video content from television satellites may be inappropriate to use directly in a network based on LTE and eMBMS. The content providing unit may further comprise and/or be configured to retrieve digital content from one or more storages in the cellular communications network 100, typically in the EPC 101. The one or more storages may be comprised in the content providing unit. Some or all of the one or more storages may be in a physical unit that corresponds to the content providing unit, and/or some or all of the one or more storages may be in one or more physical units that are separate from a physical unit comprising the content providing unit. Digital content that has been stored in and is available from the one or more storages in the cellular communications network 100 enable a faster response to a decision to provide the digital content by broadcast or multicast and may also guarantee availability and quality of the digital content to be used for the broadcast or multicast. In some embodiments, one or more such storages may be connected to the PDN Gateway 142 and the BMSC 131 and be configured, e.g. via the PDN Gateway 142, to store digital content that previously has been requested and delivered by unicast to user equipments in the cellular communication network 100, e.g. one or more of the user equipments 120-123, and which digital content is such considered relevant as a candidate for broadcast or multicast. The Broadcast Management unit 130 may be responsible for configuring what and when to store something in the one or more storages. For example, the one or more storages may be configured to store all, or certain types of, digital content delivered via unicast, but only keep it in the one or more storages as long as it is frequently requested by user equipments, e.g. including the user equipments 120-123, which may be taken as an indication that it is a potential candidate to receive a decision to provide it by broadcast or multicast. As will be further discussed below, a decision to provide the digital content by broadcast or multicast may be based on one or more measures and/or parameters. Some of the measures and/or parameters corresponds to threshold values. For a decision to store the digital content in advance in the one or more storages, a corresponding but somewhat less restrictive threshold values than for taking the actual decision may be used. This may be used to guarantee availability of the digital content in the one or more storages when a decision to provide certain digital content by broadcast or multicast is taken.

Still referring to FIG. 1 and the one or more support units 133. The scheduling unit that may be comprised in the one or more support units 133 may e.g. provide information about when to start and/or stop and/or change the broadcast or multicast, e.g. when to add or remove the digital content from the broadcast or multicast. The data carousel providing unit that may be comprised in the one or more support units 133 may e.g. provide a data carousel where digital content that has been retrieved for the broadcast or multicast is inserted. By broadcast of the data carousel, the digital content will repeatedly occur in the broadcast or multicast. As should be understood, a data carousel is manly relevant for digital content corresponding to data files but not streaming data. For example, by providing a file of digital content in a data carousel, the file of digital content is made more suitable for continuous broadcast or multicast and to be provided by broadcast or multicast at the same time together with other digital content. The other digital content may be comprised in the same or another data carousel, or may be such that is already provided as a data stream, e.g. a web radio transmission. The scheduling unit may operate directly on the data carousel providing unit so that a data carousel comprising properly scheduled digital content may be provided to the BMSC 131.

In some embodiments, one or more supporting units 133 may be a respective logical unit that may be implemented in one and the same physical unit as e.g. the BMSC 131 or the Broadcast Management unit 130. In some embodiments, one or more support units may be a respective logical unit that corresponds to a separate physical unit.

FIG. 2 is a schematic block diagram depicting another view of the example in FIG. 1, here regarding session control signaling, instead of communication of user plane data as in FIG. 1. The two different view are for reducing complexity in each view for readability reasons. The difference between session control signaling and communication of user plane data, should be well known to the person skilled in cellular communications network, in particular LTE. For example, session control signaling typically involve setting up and configuring data bearers that are used for the communication of user plane data. Hence, the cellular communications network 100 may also comprise a Mobility Management Entity (MME) 140, known from e.g. LTE, that communicates with the eNBs, here base stations 110 and 111, and the Serving Gateway 143. The MME 140 may be regarded as main responsible for the session control signaling and setting up and configuring of data bearers for user plane traffic to and from the user equipments. This is also the case for MBMS related traffic for LTE, but where the MME 140, as shown, communicates with the MBMS GW 132 instead of the Serving Gateway 143. In case of data bearers that are MBMS related, the MME 140 may not communicate directly with the eNBs, here base stations 110, 111, but via a Multi-cell/multicast Coordination Entity (MCE) 134, as shown in FIG. 2. The MME 140 is a logical unit, which may be implemented in a corresponding physical unit, or together with other logical units or functionality in one or more shared physical units. The MME 140 is a network node in the cellular communications network 100, or more particularly, as shown, in the EPC 101 thereof. The MCE 134 is also a logical unit, which may be implemented in a corresponding physical unit, or together with other logical units or functionality in one or more shared physical units. For example, there may be one MME 134 that corresponds to a physical unit communicably connected to several base stations, such as with base stations 110, 111, as shown in FIG. 2, or there may be several MMEs, a respective one for and integrated with each base station.

Session control signaling for embodiments herein when implemented in an LTE and eMBMS based cellular communications network 100, as shown in FIGS. 1 and FIG. 2, may follow normal procedures and will therefore not be discussed in any further detail in the following. For example, how the BMSC 131 has been configured and what digital content to broadcast or multicast, does not affect the procedures for the session control signaling as such. The skilled person with knowledge of LTE and eMBMS will realize what session control signaling will be involved and may be needed for implementation of embodiments herein.

When the digital content is provided by broadcast or multicast instead of unicast, the result is that one and the same copy of the digital content may be received by multiple user equipments at the same time, instead of sending and addressing a separate copy of the digital content to each one of multiple user equipments, e.g. each one of the user equipments 120-123, as in the case of unicast. Hence multiple unicast downlink transmissions, e.g. one for each one of individual user equipments, where each unicast transmission would require a certain bandwidth, are possible to replace by broadcast or multicast with a bandwidth that is independent on the number of receiving user equipments. This may be used to reduce the risk of capacity overload in the cell or cells subject to the broadcast or multicast. However, this does not happen automatically just because e.g an LTE based cellular communications network is supporting eMBMS. For example, not all digital content may be subject for broadcast or multicast so there must be a decision of what to broadcast or multicast, and also when and where to do it. Another issue is how to get a user equipment to receive and utilize the digital content. This will be dealt with in the following, in context of embodiments herein.

However, first it is again reminded that FIG. 1 and FIG. 2 are only schematic and for exemplifying purpose. The cellular communications network 100 may in reality comprise several further cells, base stations, user equipments, and other network nodes, including management entities, which are not shown herein. Hence, the situation shown in FIG. 1 and FIG. 2 and discussed above, is not in every detail a prerequisite for embodiments herein, as should be understood by the skilled person, and in particular when considering the present application as a whole. For example, FIG. 1 only shows one service area, while embodiments herein are relevant also when the cellular communications network 100 comprises several service areas, for example a respective service area for each population dense area, such as city area, with an expected or known high utilization degree of the capacity provided by the cells of the cellular communications network 100 in that area. Also, in FIG. 1 and FIG. 2 it is only shown two cells 115, 116 in the shown service area 105, however, in some embodiments there may be one or more service areas comprising only a single cell, i.e. the service area 105 may correspond to a single cell, although a more typical situation is that the service area 105 comprises say at least ten, hundreds or even thousand cells, for example every cell in a large city.

Embodiments herein relating to a method in the Broadcast management unit 130 for providing digital content to the user equipment 120, will now be described with reference to the combined signaling diagram and flowchart depicted in FIG. 3. The actions may be taken in any suitable order.

Action 301

The Broadcast Management unit 130 decides to provide a digital content by broadcast or multicast in the service area 105, including the cell 115.

The digital content is typically data from the internet, e.g. available on the World Wide Web (WWW), often referred to as web content, but may also be other kind of digital content. For example, digital content may relate to a web radio transmission for reception by an application running on the user equipment, a video clip for view on the user equipment, a web-page for execution and display using a web-browser executing on the user equipment, any application specific digital content, a downloadable new firmware or application for execution on the user equipment, just to mention some examples. The digital content may correspond to a single data file or a group of data files. The digital content may be live and/or streamed digital content. The digital content may correspond to digital content available on the Internet and that normally is only available to the user equipment 120 by unicast.

The deciding may be based on one or more measures and/or parameters, which will be discussed separately below.

Action 302

The Broadcast Management unit 130 sends, in response to the decision in Action 301, a configuration for configuring the BMSC 131 to accomplish the broadcast or multicast according to the decision.

The configuration may comprise one or more of the following: an identifier of the digital content so that the BMSC 131 is able to fetch and use the digital content for the broadcast or multicast, an identifier of the cell 115 where the broadcast or multicast is to be provided, a bandwidth and/or bandwidth limits to be used for the broadcast or multicast, information about when to start and/or when to stop the broadcast or multicast of the digital content.

The identifier of the digital content may refer to digital content provided from the one or more supporting units 133 discussed above, e.g. the content providing unit or the data carousel providing unit, or may be an identifier referring to content available elsewhere, e.g. in the external network 50, such as the Internet. An identifier of the service area 105 may be regarded an identifier of the cell 115 when it is known that the cell 115 is comprised in the service area 105. In some embodiments the cell 115 may be predetermined for the broadcast or multicast and thereby may be already known to the BMSC 131 and thus no identifier of the cell 115 need to be comprised in the configuration. This may e.g. be the case for embodiments where the BMSC 131 is configured to serve one and the same, or even is associated with only one, service area in the cellular communications network 100.

In some embodiments, support for providing the broadcast or multicast is provided by the one or more support units 133. In embodiments with one or more support units 133, the BMSC 131 may use the received configuration to configure and/or instruct one or more of the supporting units to provide the support. In some embodiments, the configuration may be sent by the Broadcast Management unit 130 to one or more of the supporting units 133 that may forward it to the BMSC 131 or may use it to further configure and/or instruct the BMSC and/or one or more other supporting units.

In some embodiments there may be several configurations and/or instructions sent by the Broadcast Management unit 130. One or more of said several configurations and/or instructions may be sent to respective one or more supporting units 133 to make the one or more supporting units 133 provide the support. For example, the decision by the Broadcast Management unit 130 to provide the digital content by broadcast or multicast in the service area 105 may in some embodiments be followed by that the Broadcast Management unit 130, in response thereto, sends a configuration to the scheduling unit comprised in the one or more supporting units 133. The scheduling unit may then, in response, schedule the broadcast or multicast. The scheduling unit may then, in accordance with the schedule, initiate the broadcast or multicast directly with the BMSC 131, via the Broadcast Management unit 130 or via the data carousel unit also comprised in the one or more supporting units 133. When the data carousel unit is involved, the data carousel unit may fetch the digital content from or via the content providing unit, also comprised in the one or more support units 133, and may then provide a data carousel comprising the digital content to the BMSC 131 for accomplishing the broadcast or the multicast. The BMSC 131 may fetch the digital content for the broadcast or multicast from or via the content providing unit, e.g. such digital content that is not first to be arranged in a data carousel by the data carousel unit.

Action 303

The BMSC 131 fetches the digital content for the broadcast or multicast in response to received configuration. The BMSC 131 may fetch the digital content from the external network 50, e.g. the Internet, via the PDN Gateway 142, or the digital content may be fetched from within the cellular communications network 100. In some embodiments it is fetched from or via the content providing unit comprised in the one or more supporting units 133, discussed above. Note that even in a case when the BMSC 131, in response to the received configuration, fetches the digital content from the external network 50 instead from an internal storage of e.g. the content providing unit as discussed above, the fetched digital content may still be stored temporarily in an internal storage, e.g. located in the BMSC 131 or in the data carousel unit as discussed above, until it is time to use the digital content to provide the broadcast or multicast, e.g. by adding the digital content to a data carousel subject to the broadcast or multicast.

Action 304

The BMSC 131 sends the fetched digital content, via the MBMS GW 132, to the base station 110 for broadcast or multicast in the cell 115.

In some embodiments the digital content may be tagged in the provided broadcast or multicast, such that the user equipment 120, based on the tagged digital content and a user profile of, or setting in, the user equipment 120, is able to determine that the digital content is relevant for receiving and/or keeping. The tagging may be made for one or more profile groups of user equipments for which the digital content is relevant, wherein each profile group comprises user equipments that are associated with similar user profiles and/or settings. Each such profile group may e.g. comprise one or more of the user equipments 120-123. The tagging may be added in the BMSC 131 based on the type of digital content and/or according to information provided in the configuration. The tagging may be added to and/or associated with the MBMS packages comprising the digital content, which packages are sent by the BMSC 131, or it may be done by adding tagging information to the Service Announcement, see Action 305 below.

Execution of the present action thus makes the digital content available to all user equipments in the cell 115, including user equipment 120 and 121, (if broadcast) or available to multiple, but not necessarily all user equipments in the cell 115 (if multicast). In the latter case, the multicast may e.g. include user equipment 120 and exclude user equipment 121.

Action 305

The BMSC 131 sends a Service Announcement, via the MBMS GW 132, to the base station 110 for broadcast or multicast in the cell 115. The Service Announcement comprises information to user equipments, such as user equipment 120, about what digital content is available by the broadcast or multicast. In some embodiments, the tagging discussed above in Action 304 may be accomplished by adding tagging information to the Service Announcement. The Service Announcement may be provided as a service layer function by the BMSC 131. One purpose of the Service Announcement is to enable overview of the digital content being provided by the broadcast or multicast without having to first download the actual digital content. The Service Announcement may thus e.g. enable faster knowledge and evaluation of the available digital content by the user equipments, e.g. user equipment 120. However, in some embodiments there may be no Service Announcement. The Service Announcement is typically, but not necessarily, comprised in a data carousel, which may be referred to as a Service Announcement carousel. In some embodiments with a Service Announcement it may e.g. be received via unicast. In e.g. eMBMS, discussed in the foregoing, the Service Announcement carousel may repeat sending Metadata Fragments at predetermined intervals, see e.g. ETSI TS 126 346 V9.7.0 (2012-07): Universal Mobile Telecommunications System (UMTS); LTE; Multimedia Broadcast/Multicast Service (MBMS); Protocols and codecs (3GPP TS 26.346 version 9.7.0 Release 9), Section 5.2 User Service Discovery/Announcement.

The Service Announcement carousel may be provided to the BMSC 131 by one or more support units 133. The creation and insertion of Service Announcements in the broadcast or multicast may be arranged to follow automatically based on the digital content that is actually being provided by the broadcast or multicast, which is information that may be present in and taken from e.g. the BMSC 131, the Broadcast management unit 130 and/or the one or more support units 133.

Hence, when a Service Announcement is present, it may suffice that the user equipment 110 is able to receive and read the Service Announcement to be able to find and download the digital content that is provided by the broadcast or multicast in the cell 115. The Service Announcement may be transmitted using an MBMS bearer that is default available to user equipments in the service area 105 where the broadcast or multicast is provided, e.g. to user equipment 120. For example, in LTE and eMBMS, information where to find the Service Announcement may be transmitted in a Multicast Control Channel (MCCH) that is listened to by every user equipment entering a service area where broadcast or multicast is provided.

However, note that in some embodiments there may be no Service Announcement. An example of this will be given below in connection with FIG. 4.

Action 306

The user equipment 120 registers, within the user equipment 120, a request for retrieving the digital content. This may happen at any point in time when the digital content is being provided by the broadcast or the multicast in the cell 115 and the Service Announcement may be available, according to the previous actions. However, the request being registered need not be dependent on when or even if the digital content is actually available by the broadcast or multicast. The request may be result from a user generated action, e.g. user selection in an application, executing on the user equipment 120, of a file to download or audio or video stream to view or listen to. The request being registered may also follow from an automatically triggered event on the user equipment, e.g. at a predetermined point in time or following release of some trigger that e.g. new software is available for download. Such trigger may e.g. be received by unicast through an application, e.g. an application store or application for maintenance of installed applications.

Action 307

The user equipment 120 receives the Service Announcement in response to the registered request. How and where the user equipment 120 may find the Service Announcement was discussed above under Action 305.

Action 308

The user equipment 120 checks the received Service Announcement for the digital content that was requested to be retrieved. It is here and below assumed that the digital content is found in the Service Announcement and that the user equipment 120 thereby is enabled to receive the digital content from the provided broadcast or multicast. See further comments on this below.

Action 309

The user equipment 120 receives the digital content from the provided broadcast or multicast, in response to that the user equipment 120 found the digital content that was requested in the Service Announcement. As stated in the previous action it is here assumed that the digital content is to be found in the Service Announcement. If it would not have been found, the user equipment 120 may instead have received the digital content via unicast, i.e. in a more conventional way. From a user perspective it may not be possible to tell how the digital content is actually received. However, by retrieval from the broadcast or multicast instead of unicast it may be possible to deliver an improved user experience through e.g. quicker response to a request for retrieval, faster download and/or higher quality of service, for reasons discussed in the foregoing.

Embodiments herein relating to a method in the Broadcast management unit 130 for providing digital content to the user equipment 120, will now be further described with reference to the combined signaling diagram and flowchart depicted in FIG. 4.

As may be noted, the difference compared to the combined signaling diagram and flowchart depicted in FIG. 3 and discussed above, is relating to the user equipment 120. Actions 401-405 may correspond to Action 301-305 described above and will therefore not be further described here. The actions may be taken in any suitable order.

Action 406

The user equipment 120 receives the Service Announcement from the base station 110. The user equipment may be configured to receive the Service Announcement automatically, e.g. repeatedly or when in an idle state or in a situation when the user equipment 120 has spare capacity for doing so. This enables the user equipment 120 to identify changes in digital content being provided by broadcast or multicast. How and where the user equipment 120 may find the Service Announcement was discussed above under Action 305.

Action 407

The user equipment 120 receives the digital content from the provided broadcast or multicast, in response to that the user equipment 120 found where to find the digital content in the Service Announcement. In general the user equipment 120 may only receive digital content that not previously has been received and stored, e.g. when a change in the provided digital content has been identified in the Service Announcement and which change indicate new digital content that may be relevant for the user equipment 120. For further comments in this regard, see Action 408.

Action 408

The user equipment 120 stores the received digital content in an internal storage on the user equipment 120. The user equipment 120 may be configured to receive and store one or more digital content that according to the Service Announcement are available in the provided broadcast or multicast and not previously have been stored in and already are available in the internal storage of the user equipment 120.

In some embodiments the user equipment 120 may be configured to only store digital content that fulfill certain criteria and that not previously has been stored in and already is available in the internal storage on the user equipment 120, i.e. a subset of available digital content in the provided broadcast or multicast. For example, in some embodiments, e.g. as a result from what was discussed above under Actions 304, the received digital content is tagged and the storing, i.e. storage in the internal storage, may only be made after it has first been determined that that the digital content is relevant for keeping based on the digital content that is tagged and a user profile of, and/or setting in, the user equipment 120. For example, as mentioned above, the digital content may be tagged for one or more profile groups of user equipments for which the digital content is relevant, wherein each profile group comprises user equipments that are associated with similar user profiles and/or settings, e.g. one or more or user equipments 120-123. The user equipment 120 may thus, based on a user profile or setting of its own that is available on the user equipment 120, determine that the digital content is relevant and based on this store it in the internal storage.

Action 409

The user equipment 120 registers a request for retrieving the digital content. This action may correspond to Action 306 above.

Action 410

In response to the registered request the user equipment 120 checks the internal storage for the digital content and retrieves the digital content therefrom. It is here assumed that the digital content has been stored in the internal storage and thus is found and available for retrieval. If it would not have been found when checking the internal storage, the user equipment 120 may instead receive the digital content via unicast, i.e. in a more conventional way, i.e. similar as in the case discussed above under Action 309. By retrieval from the broadcast or multicast via the internal storage it is thus possible to deliver an even more improved user experience through e.g. quicker response to a request for retrieval, direct availability and/or higher quality of service.

In some embodiments with automatic storage in the internal storage as discussed above, there may not be used a Service Announcement or similar message. For example, instead of being directed to the broadcast or multicast of the Service Announcement when entering the cell 115 as discussed above under Action 305, the user equipment 120 may instead be directed to a broadcast or multicast of digital content from which the user equipment 120 may store the digital content in the internal storage as discussed above under Action 408, and then proceed as discussed above under Actions 409-410.

As mentioned above, see e.g. Action 301, the Broadcast Management unit 130 decides to provide a digital content by broadcast or multicast in the service area 105 based on one or more measures and/or parameters. These will now be discussed and exemplified, and examples will be given how measures and/or parameters may be combined for taking the decision.

One measure that may be used is how many times the digital content has been requested by user equipments, e.g. including one or more of user equipments 120, 121, 122, 123, in e.g. the cellular communications network 100 in general, or in the service area 105 in particular. Providing the measure may involve monitoring traffic from the PDN Gateway 142 to the external network 50, and make the resulting measure available to the Broadcast Management unit 130. In some embodiments only a randomly or in some other way selected sub-group of user equipments in the cellular communications network 100 or in the service area 105 are used to produce the measure. How many times the digital content has been requested may comprise how many times in a recent time period, such as the last hour, the digital content has been requested.

Another measure that may be used is how many user equipments, such as user equipments 120, 121, 122, 123, e.g. in the cellular communications network 100 in general, or in the service area 105 in particular, are relevant for receiving the digital content at the same time. The measure of how many user equipments are relevant for receiving the digital content at the same time in the service area 105 may be based on one or more of:

-   -   User profiles and/or user settings associated with said user         equipments.     -   Positions of said user equipments.     -   Movement patterns of said user equipments.     -   Availability of new content to said user equipments.     -   Similarity between a present situation and a historical         situation.

Respective user profile or profiles, and/or setting or settings, of each of said user equipments, or at least some of said user equipments, may be available to the Broadcast Management unit 130 in response to that e.g. a respective user of each user equipment, e.g. user equipment 120, has made such available, e.g. by agreement with the operator of the cellular communications network 100, such as in connection with registering or activating the user equipment 120 in the cellular communications network 100. The user equipment 120 may e.g. have a user profile or setting associated therewith that is indicating that the user equipment 120 is relevant for software updates of installed system software and/or applications, or is interested in receiving live news. The user equipment 120 may then count as relevant for digital content relating to this.

Positions of the user equipments in the cellular communications network 100, including e.g. user equipment 120, are typically available in the cellular communications network 100 and may thus be made available to the Broadcast Management unit 130, at least with the resolution of which cell a particular user equipment is being located, but often also with higher resolution. The user equipment 120 may also itself locate its position, e.g. by means of a built in GPS-receiver and report it for availability in the cellular communications network 100 and the Broadcast Management unit. Many user equipments with e.g. a user profile or setting that makes them relevant for the same digital content and that are located in the service area 105, may result in a decision to provide the digital content by broadcast or multicast in the service area 105. Another example is a large amount of user equipments being located in a particular cell, e.g. cell 115, in the service area 105, which thereby may increase the risk for capacity overload if digital content is provided by unicast. This may be used as a measure that has a lowering effect on a threshold that is compared to other measures for taking a decision to provide certain digital content by broadcast or multicast in the service area 105.

Movement patterns of user equipments in the cellular communications network 100, e.g. including one or more of user equipments 120-124, may be determined by keeping track of change in the positions of these user equipments. For example may user equipments with a movement pattern towards the service area 105 be used to proactively take decision of what digital content to provide by broadcast or multicast in the service area 105. Also, if e.g. there amongst the user equipments moving towards the service area 105 is a large amount of user equipments already requesting certain digital content or whose user profiles and/or settings are indicating a common interest in certain digital content, this may be utilized to provide such digital content by broadcast or multicast in the service area even before the user equipments have reached the service area 105.

Availability of new content to the user equipments in the cellular communications network 100, e.g. to one or more of user equipments 120-123. The availability of digital content may e.g. be a new version of an installed application or new system software for download/installation. If it is known, or can be assumed, that many of the user equipments in the service area 105 may be interested in downloading such digital content as soon as or in close connection with it being available, this is a good reason for providing it by broadcast or multicast in the service area 105.

Similarity between a present situation and a historical situation is also a measure that may be used, e.g. by comparing one or more of the above discussed measures in a present situation with a situation in the past that was similar in some regard and/or that resulted in similar measures. If the similar situation in the past resulted in a great demand for certain digital content and/or made, or would have made, it beneficial to provide certain digital content by broadcast or multicast, this may be a contributing factor when taking a present decision of what digital content to provide by broadcast or multicast in the service area 105.

Further measures and/or parameters that may be used for taking the decision to provide digital content by broadcast or multicast in the service area 105 may include one or more of the following:

-   -   A minimum number of user equipments, including e.g. user         equipment 120, for receiving the digital content at the same         time in the service area 105 in order for there to be a gain in         resource utilization in the service area 105 by providing the         digital content by the broadcast or the multicast instead of         only letting the digital content be available by unicast.     -   A data type associated with the digital content. For example, it         may be decided to only broadcast or multicast digital content of         certain data types that are particularly known to cause overload         in cell capacity, e.g. digital content relating to software         download and/or live video and/or audio streaming.     -   A size of the digital content. For example, only digital content         above a certain size may be decided to be provided by the         broadcast or multicast.     -   A bandwidth requirement associated with the digital content. For         example, only digital content associated with a certain minimum         bandwidth may be decided to be provided by the broadcast or         multicast.     -   A lifetime of the digital content. If some digital content is         known to only be available a very short time, this may affect         the decision. If e.g. other measures and/or parameters points         toward that the digital content is relevant for many user         equipments, a short lifetime would be contributing to a decision         to provide the digital content by broadcast or multicast. This         since it then may be expected that many user equipments will be         interested to receive the digital content at the same time.

It is understood that the above discussed measures and parameters, although may be used alone or only a few thereof in combination, enable great many various combinations but that it is not possible to discuss every combination in detail herein.

Embodiments herein relating to a method in the Broadcast management unit 130 for providing digital content to the user equipment 120, will now be further elaborated and described with reference to the flowchart depicted in FIG. 5. The user equipment 120 is served by the base station 110 in the cell 115 of the cellular communications network 100. The base station 110 is comprised in the radio access network 102 of the cellular communications network 100 and the Broadcast Management unit 130 is comprised in the core network 101 of the cellular communications network 100. The method comprises the following actions, which actions may be taken in any suitable order. Further, actions may be combined.

Action 501

The Broadcast Management unit 130 decides to provide a digital content by broadcast or multicast in a service area 105 comprising the cell 115, instead of only letting the digital content be available in the service area 105 by unicast.

In some embodiments, the decision to provide the digital content by broadcast or multicast may be based on a measure associated with how many times the digital content has been requested by user equipments, e.g. User equipment 120, 121, 122, 123, in the cellular communications network 100.

Further, in some embodiments, the decision to provide the digital content by broadcast or multicast may be based on a measure of how many user equipments, e.g. user equipments 120, 121, 122, 123, are relevant for receiving the digital content at the same time in the service area 105.

In some embodiments, the measure of how many user equipments are relevant for receiving the digital content at the same time in the service area is based on one or more of:

-   -   User profiles and/or user settings associated with user         equipments, e.g. user equipments 120, 121, 122, 123, in the         cellular communications network 100.     -   Positions of user equipments, e.g. user equipments 120, 121,         122, 123, in the cellular communications network 100.     -   Movement patterns of user equipments, e.g. user equipments 120,         121, 122, 123, in the cellular communications network 100.     -   Availability of new content to user equipments, e.g. user         equipments 120, 121, 122, 123, in the cellular communications         network 100.     -   Similarity between a present situation and a historical         situation.

Moreover, in some embodiments the decision to provide the digital content by broadcast or multicast may be based on one or more of the following:

-   -   A minimum number of user equipments, e.g. user equipments 120,         121, 122, 123, for receiving the digital content at the same         time in the service area 105 in order for there to be a gain in         resource utilization in the service area 105 by providing the         digital content by the broadcast or the multicast instead of         only letting the digital content be available by unicast.     -   A data type associated with the digital content.     -   A size of the digital content.     -   A bandwidth requirement associated with the digital content.     -   A lifetime of the digital content.

This action may correspond fully or partially to the previously described Action 301 and Action 401.

Action 502

The Broadcast Management unit 130 provides, in response to the decision, broadcast or multicast of the digital content in the service area 105. This enables reception of the digital content by the user equipment 120 via the base station 120 and by one or more additional user equipments, e.g. user equipments 121, 122, 123, being served in the service area 105.

In some embodiments, to provide the broadcast or multicast of the digital content may comprises to provide broadcast or multicast of a data carousel comprising the digital content.

In some embodiments the digital content is tagged in the provided broadcast or multicast, such that the user equipment 120, based on the tagged digital content and a user profile of or setting in the user equipment 120, is able to determine that the digital content is relevant for keeping after reception. The digital content may be tagged for one or more profile groups of user equipments for which the digital content is relevant, wherein each profile group comprises user equipments that are associated with similar user profiles and/or settings.

In some embodiments the digital content used in the provided broadcast or multicast is taken from a storage in the cellular communications network 100. The digital content has been stored in the storage after it has been retrieved from the external network 50, such as the Internet, in response to one or more previous requests for the digital content by one or more user equipments in the cellular communications network 100.

This action may correspond fully or partially to the previously described Actions 302-304 and Actions 402-404.

Action 503

This is an optional action for embodiments herein. The Broadcast Management unit 130 provides sending of a service announcement for reception by the user equipment 120 via the base station 110. The service announcement identifies the digital content and the availability of the digital content in the provided broadcast or multicast.

Provide the sending of the service announcement may comprise to provide broadcast or multicast in the service area 105 of a first data carousel comprising the service announcement.

This action may correspond fully or partially to the previously described Actions 302-305 and Actions 402-405.

To perform the actions above for providing digital content to the user equipment 120, the Broadcast Management unit 130 may comprise an arrangement schematically depicted in FIG. 6. As mentioned above, the user equipment 120 is served by the base station 110 in the cell 115 of the cellular communications network 100. The base station 110 is comprised in the radio access network 102 of the cellular communications network 100 and the Broadcast Management unit 130 is comprised in the core network 101 of the cellular communications network 100.

The Broadcast Management unit 130 comprises a deciding circuitry 620, configured to decide to provide the digital content by broadcast or multicast in the service area 105 comprising the cell 115, instead of only letting the digital content be available in the service area 105 by unicast.

The Broadcast Management unit 130 further comprises a providing circuitry 630, configured to, in response to the decision, provide broadcast or multicast of the digital content in the service area 105. Thereby it is enabled reception of the digital content by the user equipment 120 via base station 110 and by one or more additional user equipments, e.g. user equipments 121, 122, 123, being served in the service area 105.

In some embodiments the providing circuitry 630 is further configured to provide the sending of the service announcement for reception by the user equipment 120 via the base station 110. The service announcement identifies the digital content and the availability of the digital content in the provided broadcast or multicast.

In some embodiments, the providing circuitry 630 is further configured to provide broadcast or multicast in the service area 105 of the first data carousel comprising the service announcement. Furthermore, in some embodiments the providing circuitry 630 is further configured to provide broadcast or multicast of the second data carousel comprising the digital content.

The Broadcast Management unit 130 may further comprise a receiving port 610 that may be configured to receive information from and be involved in communication with other units, e.g. the BMSC 131 and the one or more support units 133. For example may the receiving port 610 be configured to, from other parts of the cellular communications network 100, receive one or more of the aforementioned measures and/or parameters upon which the decision to provide the digital content by broadcast or multicast in the service area 105 may be based.

The Broadcast Management unit 130 may further comprise a sending port 640 that may be configured to send information to and be involved in communication with other units, e.g. the BMSC 131 and the one or more support units 133. For example may the sending port 640 be configured to send aforementioned one or more configurations and/or instructions to the BMSC 131 and/or the one or more support units 133 in order to accomplish the broadcast or multicast in the service area 105.

The embodiments of the Broadcast Management unit 130 may be implemented through one or more processors, such as a processor 650 in the Broadcast Management unit 130 depicted in FIG. 6, together with computer program code for performing the functions and actions of embodiments herein. In some embodiments the circuitry discussed above may be fully or partially implemented by the processor 650.

The computer program code mentioned above may also be provided as a computer program product, for instance in the form of a data carrier carrying computer program code for performing the embodiments herein when being loaded into the in the Broadcast Management unit 130. One such carrier may be in the form of a CD or DVD. It is however feasible with other data carriers such as a memory stick, memory card or hard drive. The computer program code may furthermore be provided as pure program code on a server for download to the Broadcast Management unit 130. The computer program code may furthermore be provided in the form of a data file or files on, or available through, a server for download. The file or files may be executable files for direct or indirect download to and execution on the Broadcast Management unit 130, or may be for intermediate download and compilation to make them executable before download to and for execution in the Broadcast Management unit 130. The server may be accessible over a computer network, such as the Internet, and may e.g. be a web or ftp server.

The Broadcast Management unit 130 may further comprise a memory 660 comprising one or more memory units. The memory 660 is arranged to store data, such as values mentioned above relating to configuration/s and/or the instructions/s that may be sent to the BMSC 131 and/or the one or more supporting units 133, and/or to the measures and parameters for the decision, etc., and configurations and/or applications to perform the method when being executed in the Broadcast Management unit 130.

Those skilled in the art will also appreciate that the deciding circuitry 620 and the providing circuitry 630 may refer to a combination of analog and digital circuits, and/or one or more processors configured with software and/or firmware (e.g., stored in memory) that, when executed by the one or more processors such as the processor 650, perform as described above. One or more of these processors, as well as the other digital hardware, may be included in a single application-specific integrated circuit (ASIC), or several processors and various digital hardware may be distributed among several separate components, whether individually packaged or assembled into a system-on-a-chip (SoC).

Embodiments herein relating to a method in the user equipment 120 for receiving the digital content, will now be further elaborated and described with reference to the flowchart depicted in FIG. 7. The user equipment 120 is served by the base station 110 in the cell 115 of the cellular communications network 100.

The method comprises the following actions, which actions may be taken in any suitable order. Further, actions may be combined.

Action 701

The user equipment 120 registers a request for retrieving the digital content. This action may correspond fully or partially to the previously described Action 306 and Action 409.

Action 702

The user equipment 120 identifies, in response to the registered request, that the digital content is available from broadcast or multicast provided in the cell 115 via the base station 110.

In some embodiments, the present action comprises that: The user equipment 120 stores the received digital content in an internal storage independent on the registered request for retrieving the digital content. The user equipment 120 checks 410 the internal storage for the requested digital content.

The received digital content may be tagged and it is stored after it has been determined that that the digital content is relevant for keeping based on the digital content that is tagged and a user profile of or setting in the user equipment 120. The digital content may be tagged for one or more profile groups of user equipments for which the digital content is relevant. Each profile group may comprises user equipments that are associated with similar user profiles and/or settings.

In some embodiments, the present action comprises that: The user equipment 120 receives via the base station 110, a service announcement that identifies the digital content and the availability of the digital content in the provided broadcast or multicast. The user equipment 120 checks the received service announcement for the requested digital content.

This action may correspond fully or partially to the previously described Actions 307-308 and Actions 408, 410.

Action 703

The user equipment 120 receives, in response to the identified availability, the digital content from the provided broadcast or multicast via the base station 110 instead of receiving the digital content from unicast via the base station 110.

In some embodiments the service announcement is comprised in a first data carousel that is provided by broadcast or multicast in the cell 115.

This action may correspond fully or partially to the previously described Action 309 and Action 407.

To perform the actions above for providing digital content to the user equipment 120, the Broadcast management unit 130 may comprise an arrangement schematically depicted in FIG. 8. As mentioned above, the user equipment 120 is served by the base station 110 in the cell 115 of the cellular communications network 100. The base station 110 is comprised in the radio access network 102 of the cellular communications network 100.

The user equipment 120 comprises a registering circuitry 820, configured to register the request for retrieving the digital content.

The user equipment 120 further comprises an identifying circuitry 830, configured to identify, in response to the registered request, that the digital content is available from broadcast or multicast provided in the cell 115 via the base station 110.

In some embodiments the identifying circuitry 830 is further configured to receive, via the base station 110, the service announcement that identifies the digital content and the availability of the digital content in the provided broadcast or multicast, and to check the received service announcement for the requested digital content.

In some embodiments the identifying circuitry 830 is further configured to store the received digital content in an internal storage independent on the registered request for retrieving the digital content, and check the internal storage for the requested digital content. The received digital content may be tagged. The identifying circuitry 830 may be configured to store the received digital content after it has been determined that that the digital content is relevant for keeping based on the digital content that is tagged and a user profile of or setting in the user equipment 120.

The user equipment 120 also comprises a receiving port 810, configured to, in response to the identified availability, receive the digital content from the provided broadcast or multicast via the base station 110 instead of receiving the digital content from unicast via the base station 110.

The user equipment 120 may further comprise a sending port 840 that may be configured to send information to and be involved in communication with the base station 110.

The embodiments of the user equipment 120 may be implemented through one or more processors, such as a processor 850 in the user equipment 120 depicted in FIG. 8, together with computer program code for performing the functions and actions of embodiments herein. In some embodiments the circuitry discussed above may be fully or partially implemented by the processor 850.

The computer program code mentioned above may also be provided as a computer program product, for instance in the form of a data carrier carrying computer program code for performing the embodiments herein when being loaded into the in the user equipment 120. One such carrier may be in the form of a CD or DVD. It is however feasible with other data carriers such as a memory stick, memory card or hard drive. The computer program code may furthermore be provided as pure program code on a server for download to the user equipment 120. The computer program code may furthermore be provided in the form of a data file or files on, or available through, a server for download. The file or files may be executable files for direct or indirect download to and execution on the user equipment 120, or may be for intermediate download and compilation to make them executable before download to and for execution in the user equipment 120. The server may be accessible over a computer network, such as the Internet, and may e.g. be a web or ftp server.

The user equipment 120 may further comprise a memory 860 comprising one or more memory units. The memory 860 is arranged to store data, such as the Service Announcement during and after it has been received, and configurations and/or applications to perform the method when being executed in the user equipment 120.

Those skilled in the art will also appreciate that the registering circuitry 820 and the identifying circuitry 830 may refer to a combination of analog and digital circuits, and/or one or more processors configured with software and/or firmware (e.g., stored in memory) that, when executed by the one or more processors such as the processor 850, perform as described above. One or more of these processors, as well as the other digital hardware, may be included in a single application-specific integrated circuit (ASIC), or several processors and various digital hardware may be distributed among several separate components, whether individually packaged or assembled into a system-on-a-chip (SoC).

Many embodiments and examples that have been described and discussed herein relate to LTE and LTE based systems, in particular such that has been enhanced with MBMS functionality, such as eMBMS. However, this is not to be construed as limiting embodiments herein to only LTE based cellular communications networks and not necessarily to only cellular communications networks enhanced with MBMS functionality.

Generally, embodiments herein are not limited to the above described preferred embodiments. Various alternatives, modifications and equivalents may be used. Therefore, the above embodiments should not be taken as limiting the scope of the invention, which is defined by the appending claims.

When using the word “comprise” or “comprising” it shall be interpreted as non-limiting, i.e. meaning “consist at least of”. 

1. A method in a broadcast management-broadcast management unit for providing digital content to a user equipment being served by a base station in a cell of a cellular communications network, wherein the base station is comprised in a radio access network of the cellular communications network and the broadcast management unit is comprised in a core network of the cellular communications network, wherein the method comprises: deciding to provide a digital content by broadcast or multicast in a service area comprising the cell instead of only letting the digital content be available in the service area by unicast, and providing, in response to the decision, broadcast or multicast of the digital content in the service area, thereby enabling reception of the digital content by the user equipment via the base station and by one or more additional user equipments being served in the service area.
 2. The method as claimed in claim 1, wherein the method further comprises: sending a service announcement for reception by the user equipment via the base station, which service announcement identifies the digital content and the availability of the digital content in the provided broadcast or multicast.
 3. The method as claimed in claim 2, wherein sending the service announcement comprises providing broadcast or multicast in the service area of a first data carousel comprising the service announcement.
 4. The method of claim 1, wherein the providing of the broadcast or multicast of the digital content comprises providing broadcast or multicast of a second data carousel comprising the digital content.
 5. The method of claim 1, wherein the deciding is based on a measure associated with how many times the digital content has been requested by user equipments in the cellular communications network.
 6. The method of claim 1, wherein the deciding is based on a measure of how many user equipments are relevant for receiving the digital content at the same time in the service area.
 7. The method as claimed in claim 6, wherein the measure of how many user equipments are relevant for receiving the digital content at the same time in the service area is based on one or more of: user profiles and/or user settings associated with user equipments in the cellular communications network; positions of user equipments in the cellular communications network; movement patterns of user equipments in the cellular communications network; availability of new content to user equipments in the cellular communications network; and similarity between a present situation and a historical situation.
 8. The method of claim 1, wherein the deciding is based on one or more of the following: a minimum number of user equipments for receiving the digital content at the same time in the service area in order for there to be a gain in resource utilization in the service area by providing the digital content by the broadcast or the multicast instead of only letting the digital content be available by unicast; a data type associated with the digital content; a size of the digital content; a bandwidth requirement associated with the digital content; and a lifetime of the digital content.
 9. The method of claim 1, wherein the digital content is tagged in the provided broadcast or multicast, such that the user equipment, based on the tagged digital content and a user profile of or setting in the user equipment, is able to determine that the digital content is relevant for keeping after reception.
 10. The method of claim 9, wherein the digital content is tagged for one or more profile groups of user equipments for which the digital content is relevant, wherein each profile group comprises user equipments that are associated with similar user profiles and/or settings.
 11. The method of claim 1, wherein the digital content used in the provided broadcast or multicast is taken from a storage in the cellular communications network, in which storage the digital content has been stored after it has been retrieved from an external network, such as the Internet, in response to one or more previous requests for the digital content by one or more user equipments in the cellular communications network.
 12. A method in a user equipment for receiving digital content, the user equipment being served by a base station in a cell of a cellular communications network, wherein the base station is comprised in a radio access network of the cellular communications network, wherein the method comprises: registering a request for retrieving a digital content, identifying, in response to the registered request, that the digital content is available from broadcast or multicast provided in the cell via the base station, and receiving, in response to the identified availability, the digital content from the provided broadcast or multicast via the base station instead of receiving the digital content from unicast via the base station.
 13. The method as claimed in claim 12, wherein the identifying that the digital content is available from broadcast or multicast comprises: receiving, via the base station, a service announcement that identifies the digital content and the availability of the digital content in the provided broadcast or multicast, and checking the received service announcement for the requested digital content.
 14. The method as claimed in claim 13, wherein the service announcement is comprised in a first data carousel that is provided by broadcast or multicast in the cell.
 15. The method of claim 12, wherein the identifying that the digital content is available from broadcast or multicast comprises: storing the received digital content in an internal storage independent on the registered request for retrieving the digital content, and checking the internal storage for the requested digital content.
 16. The method as claimed in claim 15, wherein the received digital content is tagged and the storing is made after it has been determined that that the digital content is relevant for keeping based on the digital content that is tagged and a user profile of or setting in the user equipment.
 17. The method of claim 16, wherein the digital content is tagged for one or more profile groups of user equipments for which the digital content is relevant, wherein each profile group comprises user equipments that are associated with similar user profiles and/or settings.
 18. A broadcast management unit for providing digital content to a user equipment served by a base station in a cell of a cellular communications network, wherein the base station is comprised in a radio access network of the cellular communications network and the broadcast management unit is comprised in a core network of the cellular communications network, wherein the broadcast management unit comprises: a deciding circuitry, configured to decide to provide a digital content by broadcast or multicast in a service area comprising the cell, instead of only letting the digital content be available in the service area by unicast, and a providing circuitry, configured to, in response to the decision, provide broadcast or multicast of the digital content in the service area, thereby enabling reception of the digital content by the user equipment via the base station and by one or more additional user equipments being served in the service area.
 19. The broadcast management unit as claimed in claim 18, wherein the providing circuitry is further configured to provide sending of a service announcement for reception by the user equipment via the base station, which service announcement identifies the digital content and the availability of the digital content in the provided broadcast or multicast.
 20. The broadcast management unit as claimed in claim 19, wherein the providing circuitry is further configured to provide broadcast or multicast in the service area of a first data carousel comprising the service announcement.
 21. The broadcast management unit of claim 18, wherein the providing circuitry is further configured to provide broadcast or multicast of a second data carousel comprising the digital content.
 22. The broadcast management unit of claim 18, wherein the decision to provide the digital content by broadcast or multicast is based on a measure associated with how many times the digital content has been requested by user equipments in the cellular communications network.
 23. The broadcast management unit of claim 18, wherein the decision to provide the digital content by broadcast or multicast is based on a measure of how many user equipments are relevant for receiving the digital content at the same time in the service area.
 24. The broadcast management unit as claimed in claim 23, wherein the measure of how many user equipments are relevant for receiving the digital content at the same time in the service area is based on one or more of: user profiles and/or user settings associated with user equipments in the cellular communications network; positions of user equipments in the cellular communications network; movement patterns of user equipments in the cellular communications network; availability of new content to user equipments in the cellular communications network; and similarity between a present situation and a historical situation.
 25. The broadcast management unit of claim 18, wherein the decision to provide the digital content by broadcast or multicast is based on one or more of the following: a minimum number of user equipments for receiving the digital content at the same time in the service area in order for there to be a gain in resource utilization in the service area by providing the digital content by the broadcast or the multicast instead of only letting the digital content be available by unicast; a data type associated with the digital content; a size of the digital content; a bandwidth requirement associated with the digital content; and a lifetime of the digital content.
 26. The broadcast management unit of claim 18, wherein the digital content is tagged in the provided broadcast or multicast, such that the user equipment, based on the digital content that is tagged and a user profile of or setting in the user equipment, is able to determine that the digital content is relevant for keeping after reception.
 27. The broadcast management unit as claimed in claim 26, wherein the digital content is tagged for one or more profile groups of user equipments for which the digital content is relevant, wherein each profile group comprises user equipments that are associated with similar user profiles and/or settings.
 28. The broadcast management unit of claim 18, wherein the digital content used in the provided broadcast or multicast is taken from a storage in the cellular communications network, in which storage the digital content has been stored after being retrieved from an external network, such as the Internet, in response to one or more previous requests for the digital content by one or more user equipments in the cellular communications network.
 29. A user equipment for receiving digital content, wherein the user equipment is configured to be served by a base station in a cell of a cellular communications network, wherein the base station is comprised in a radio access network of the cellular communications network, wherein the user equipment comprises: a registering circuitry, configured to register a request for retrieving a digital content, an identifying circuitry, configured to identify, in response to the registered request, that the digital content is available from broadcast or multicast provided in the cell via the base station, and a receiving port, configured to, in response to the identified availability, receive the digital content from the provided broadcast or multicast via the base station instead of receiving the digital content from unicast via the base station.
 30. The user equipment as claimed in claim 29, wherein the identifying circuitry is further configured to receive, via the base station, a service announcement that identifies the digital content and the availability of the digital content in the provided broadcast or multicast, and to check the received service announcement for the requested digital content.
 31. The user equipment as claimed in claim 30, wherein the service announcement is comprised in a first data carousel that is provided by broadcast or multicast in the cell.
 32. The user equipment of claim 29, wherein the identifying circuitry is further configured to store the received digital content in an internal storage independent on the registered request for retrieving the digital content, and check the internal storage for the requested digital content.
 33. The user equipment of claim 29, wherein the received digital content is tagged and the identifying circuitry is configured to store the received digital content after it has been determined that that the digital content is relevant for keeping based on the digital content that is tagged and a user profile of or setting in the user equipment.
 34. The user equipment as claimed in claim 33, wherein the digital content is tagged for one or more profile groups of user equipments for which the digital content is relevant, wherein each profile group comprises user equipments that are associated with similar user profiles and/or settings. 